GROUNDWORK: Primary Productivity in the Hudson River Estuary
GROUNDWORK is a project that sets the stage for a new ecological paradigm to emerge within the field of Landscape Architecture. Infrastructure design takes precedence within the project and allows site information to drive function. Ultimately, the design becomes an adaptable tool that creates cohesiveness between ecologies of the built environment and estuarine ecosystems.
 |
|
|
The Hudson River Estuary is a unique ecosystem that supports the functions of aquatic wildlife along with the economy of the extensive New York and New Jersey metropolitan areas. Major developments along the river allow for populations to acknowledge the area as a resource, but tend to disregard ecological operations such as vegetative and wildlife habitats. In an age of failing infrastructure and climate change, our project set out to lay the GROUNDWORK for design developments that acknowledge a new ecology where once disregarded elements of the estuary become the solution for many issues we are facing today, and establish a cohesive environment between human populations and estuary ecologies.
Overall analysis of the Hudson River Estuary provided key information that ultimately informed three areas of intervention. Form, flow, and matter of the Hudson River allowed for an understanding of the physiological features within the estuary and identified estuary characteristics such as tidal influence, soil compositions, and hardened shorelines. Disturbances were also considered in order to pinpoint areas where conditions were susceptible to alternation as a result of singular disturbances such as storm events of the likes of Hurricane Sandy and disturbance regimes that represent a pattern of repeated events such as sewer outfall stations. With the compilation of all the information, three sites were chosen to demonstrate the adaptable nature of GROUNDWORK infrastructure. On the island of Manhattan a site was chosen on the southwestern shore surrounding the Holland Tunnel, in addition to Inwood Hill Park, located at the northern most point of the island. The last site is Beacon Harbor, an undeveloped parcel of land just below the city of Albany, NY.
|
|
|
Our design approach focused specifically on primary producers within the Hudson River Estuary due to their significance in laying a foundation for habitat development. Organisms such as phytoplankton, algae, and submerged aquatic vegetation are all primary producers that photosynthesize and use sunlight to transform carbon dioxide, water, and excess nutrients into organic compounds and oxygen, which are necessary in a functioning aquatic ecosystem for organisms of higher tropic levels.
GROUNDWORK infrastructure was specifically designed to establish aquatic environments that facilitate and increase primary productivity within each of the areas of intervention. The semi-circle structures replicate a ridge like form and have smaller ridges on the surface to create a strong texture that slows down the flows of water coming into each site. Along the ridge texture, high turbid waters will be able to drop sediment and ultimately provide a base for the development of aquatic vegetation such as eel grass, widgeon grass, and wild celery. Reduced water velocity will also increase residence time within the estuary and allow for phytoplankton to reproduce before getting flushed out of the system.
|
|
|
Each piece of GROUNDWORK infrastructure is 3ft tall, 6 ft wide, and 12 ft long in order to establish a relationship between the Hudson River shoreline and the photic zone within tidal regimes. Photic zones are essential because this area is where primary producers have access to sunlight in order to photosynthesize and provide the necessary development for the foundation of all ecosystems. The proportions of the infrastructure were determined in response to the dynamic photic zone in relation to average 5 ft tidal changes and river bed bathymetry within each site. The aggregation of infrastructure within the photic zone increases the amount of inundated photic surfaces and creates an optimal area where primary producers have access to sunlight in order to establish growth.
At the Beacon Harbor site in Albany, NY infrastructure is implemented in order to establish an aquatic habitat for andronomous fish to spawn. Within the region, infrastructure was placed within the Normans Kill tributary that connects with the Hudson River. The tributary is classified as an ecological corridor, but industrial sites further north along the Hudson River compromise the quality of water due to CSOs and additional contaminants such as heavy metals. Placement of infrastructure was strategically designed using a jetty typology in order for sediment accumulation and increased inundated photic surfaces to support the development of aquatic vegetation. Once a primary producer habitat is established, phytoremediation can take place to facilitate a healthier aquatic environment.
|
|
|
|
|
|
